WSEAS Transactions on Systems
Print ISSN: 1109-2777, E-ISSN: 2224-2678
Volume 24, 2025
Precision Control Measures for Proactive Water Management to Improve Sustainability
Authors: , , , , , , , ,
Abstract: Water resource management of sustainable development was an integral part of development, especially with regard to pollution, climatic fluctuation, and demands on water quality. This research will be aimed at prevention procedures, for the effective use of water, such as sophisticated mathematical models,monitoring, and the simulation systems. In this study, Linear Regression and Random Forest Regression models are used with the aim to estimate the various interactions between the pollutants, chemicals, thermal and groundwater, and water levels. Through the incorporation of real-time monitoring mechanisms, the approach allows the adaptation of water management approaches to new environmental conditions more efficiently. It is also revealed that specific approaches to pollutant control are useful for determining effective methods of protection of water bodies and aquatic organisms. The models of predictions and the simulations employed in this analysis assist the decision makers in future planning of dealing with essential pollutants such as carbon dioxide and thermal contaminants. The results show a possibility of using precision control measures toward a decrease in pollutant concentration and increased water sustainability. Therefore, this work advances the current knowledge of sustainable water management by postulating an approach to developing adaptable and data-driven solutions to current water resource issues. It also points to a level of technological solutions in enhancing responsive and sustainable management for water quality in a changing environmental system.
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Keywords: Water Resource Management, Sustainable Development, Pollution Control, Climatic Fluctuation, Water Quality, Hydrological Modeling
Pages: 367-376
DOI: 10.37394/23202.2025.24.32